Simulation of irregular waves in an offshore wind farm with a spectral wave model

Simulation of irregular waves in an offshore wind farm with a spectral wave model

A numerical study of irregular waves in the Norwegian continental shelf wind farm (HAVSUL-II) was conducted using 3rd generation spectral wave models. The study was composed of two parts: the study of the effect of a single windmill monopile in the local incoming wave field using an empirical JONSWA...

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Bibliographic Details
Published in:Continental shelf research Vol. 31; no. 15; pp. 1541 - 1557
Main Authors: Ponce de León, S., Bettencourt, J.H., Kjerstad, N.
Format: Journal Article
Language:English
Published: Elsevier Ltd 01-10-2011
Subjects:
Computer simulation
Irregular waves
Mathematical models
Norwegian continental shelf
Offshore
Offshore engineering
Offshore structures
Offshore wind farm
Spectra
SWAN
Wave diffraction
Wind power generation
Windmill monopile
Windmills
Norway
Irregular waves
Wave diffraction
Norwegian continental shelf
Offshore wind farm
SWAN
Windmill monopile
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Summary:A numerical study of irregular waves in the Norwegian continental shelf wind farm (HAVSUL-II) was conducted using 3rd generation spectral wave models. The study was composed of two parts: the study of the effect of a single windmill monopile in the local incoming wave field using an empirical JONSWAP spectrum, and a wave hindcast study in the wind farm area using realistic incoming wave spectra obtained from large scale simulations for the 1991–1992 winter period. In the single windmill monopile study the SWAN wave model was used, while the hindcast study was conducted by successively nesting from a coarse grid using the WAM model up to a high-resolution (56 m) grid covering 26.2 km 2 of the HAVSUL-II windmill farm using the SWAN model. The effect of a single monopile on incident waves with realistic spectra was also studied. In the single windmill study the monopile was represented as a closed circular obstacle and in the hindcast study it was represented as a dry grid point. The results showed that the single windmill monopile creates a shadow zone in the down wave region with lower significant wave height ( H s ) values and a slight increase of H s in the up wave region. The effects of the windmill monopile on the wave field were found to be dependent on the directional distribution of the incoming wave spectrum and also on the wave diffraction and reflection. The hindcast study showed that the group of windmill monopiles may contribute to the reduction of the wave energy inside the offshore wind farm and that once the waves enter into the offshore wind farm they experience modifications due to the presence of the windmill monopiles, which cause a blocking of the wave energy propagation resulting in an altered distribution of the H s field. ► The local effect of windmill support is reduction of significant wave height and the spectral peak behind the windmill support. ► The directional spreading of the incoming wave spectrum, the reflection ► And diffraction of wave energy due to the monopile determine the modification of wave field in vicinity of windmill supports. ► The global effect of the offshore wind farm is the reduction of the incoming wave energy.
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content type line 23
ISSN:0278-4343
1873-6955
DOI:10.1016/j.csr.2011.07.003